A heat activated (preferably natural gas, propane, solar or waste heat fired) absorption heat pump water heater and heat exchange system. The heat driven absorption heat pump system extracts low grade heat from the ambient air and produces high grade heat suitable for heating water for domestic, cli
A heat activated (preferably natural gas, propane, solar or waste heat fired) absorption heat pump water heater and heat exchange system. The heat driven absorption heat pump system extracts low grade heat from the ambient air and produces high grade heat suitable for heating water for domestic, climate control or process purposes in a storage tank. Flue gases exiting the absorption heat pump system are further cooled by the heated water to enable high (condensing) combustion efficiencies. The heat activated heat pump water heating system achieves COP of 1.5 or greater.
대표청구항▼
1. A combination water storage vessel and thermally-activated, absorption cycle heat pump, the absorption cycle heat pump including at least a desorber warmed by combustion gas from a heat source, an absorber, an evaporator and a condenser connected by fluid conduits containing a working fluid, the
1. A combination water storage vessel and thermally-activated, absorption cycle heat pump, the absorption cycle heat pump including at least a desorber warmed by combustion gas from a heat source, an absorber, an evaporator and a condenser connected by fluid conduits containing a working fluid, the water storage vessel including a water inlet and a water outlet and storing potable water for domestic use, the combination comprising: (a) means for transferring heat from the absorber and the condenser to the potable water in the storage vessel and thereby heating the potable water;(b) means for transferring heat to the evaporator from ambient air;(c) the absorption cycle heat pump and a combustion burner defining the heat source are mounted to the storage vessel above the potable water; and(d) a blower that forces warm combustion gas exiting the heat source through the desorber and then downwardly through a heat exchanger that is mounted in the storage vessel extending from near a lower end of the storage vessel to near an upper end of the storage vessel, the heat exchanger having a sidewall that at least partially defines an exit path of the warm combustion gas and defines a side of the vessel against which the potable water seats for transferring thermal energy from the warm combustion gas through the sidewall by conduction to the potable water. 2. The combination in accordance with claim 1, wherein the heat exchanger is a vertical tube mounted in the storage vessel and extending from the lower end of the storage vessel to the upper end of the storage vessel, the vertical tube having the sidewall that at least partially defines the exit path of the warm combustion gas and defines the side of the vessel against which the potable water seats for transferring thermal energy from the warm combustion gas through the sidewall to the potable water. 3. The combination in accordance with claim 1, wherein the heat exchanger is a conduit passing through the storage vessel that has the sidewall at least partially defining the exit path of the warm combustion gas that defines the side of the vessel against which the potable water seats for transferring thermal energy from the warm combustion gas through the sidewall to the potable water. 4. The combination in accordance with claim 1, further comprising a secondary heating element disposed in the storage vessel for operating when more heating of the water is required than is possible using the heat pump alone. 5. The combination in accordance with claim 4, wherein the heat pump, independent of the secondary heating element, transfers no more than about 8 kilowatts of energy to the water. 6. The combination in accordance with claim 1, wherein the means for transferring heat from the absorber and condenser is a hydronic loop that comprises a conduit that extends into an interior of the storage vessel, the potable water seating against the conduit for transferring thermal energy from a fluid in the conduit through a conduit sidewall to the potable water. 7. The combination in accordance with claim 1, wherein the means for transferring heat from the absorber and condenser is a hydronic loop that comprises a conduit that extends around an exterior sidewall of the storage vessel, the potable water seating against the exterior sidewall for transferring thermal energy from a fluid in the conduit through a conduit sidewall, through the exterior sidewall of the storage vessel to the potable water. 8. The combination in accordance with claim 1, wherein the warm combustion gas is a flue gas, and the flue gas is cooled in the heat exchanger to at least as low as a dew point temperature of the flue gas. 9. The combination in accordance with claim 1, further comprising a restriction device mounted in the fluid conduits to restrict a flow of working fluid. 10. A combination water storage vessel and thermally-activated, absorption cycle heat pump, the absorption cycle heat pump including at least a desorber warmed by combustion gas from a heat source, an absorber, an evaporator and a condenser connected by fluid conduits containing a working fluid, the water storage vessel including a water inlet and a water outlet and storing potable water for domestic use, the combination comprising: (a) a fluid loop for transferring heat from the absorber and the condenser to the potable water in the storage vessel and thereby heating the water;(b) a first heat exchanger for transferring heat to the working fluid from ambient air;(c) the absorption cycle heat pump and a combustion burner defining the heat source are mounted to the storage vessel above the potable water; and(d) a blower that forces warm combustion gas exiting the heat source through the desorber and then downwardly through a second heat exchanger that is mounted in the storage vessel extending from near a lower end of the storage vessel to near an upper end of the storage vessel, the second heat exchanger having a sidewall that at least partially defines an exit path of the warm combustion gas and defines a side of the vessel against which the potable water seats for transferring thermal energy from the warm combustion gas through the sidewall to the potable water.
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